Title :
Vertical Interaction Between Dust Particles Confined in a Glass Box in a Complex Plasma
Author :
Jie Kong ; Ke Qiao ; Carmona-Reyes, J. ; Douglass, A. ; Zhuanhao Zhang ; Matthews, Lorin S. ; Hyde, Truell W.
Author_Institution :
Center for Astrophys., Space Phys., & Eng. Res., Baylor Univ., Waco, TX, USA
Abstract :
In this experiment, falling particle trajectories within and without a glass box placed on the lower electrode in a Gaseous Electronics Conference reference cell are recorded and analyzed, and the electrostatic forces exerted on the dust particles are measured and compared. Experimental results show that, for particles falling in a complex plasma with no glass box, only a single force balance point (i.e., the position where the gravitational force is balanced by the electrostatic force) exists in the vertical direction while, for particles falling inside a glass box, this force balance spans an extended vertical range.
Keywords :
dusty plasmas; electrodes; glass; plasma confinement; plasma diagnostics; plasma sheaths; plasma-wall interactions; potential energy functions; complex plasma; dust particles; electrode; electrostatic forces; gaseous electronic conference reference cell; glass box; gravitational force; particle trajectories; single force balance point; vertical interaction; Educational institutions; Electrodes; Electrostatics; Force; Glass; Plasmas; Complex plasma; diagnostics; interaction force; plasma sheath;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2240018
